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UNIVERSITY OF CAMBRIDGE INTERNATIONAL EXAMINATIONS International General Certificate of Secondary Education
BIOLOGY 0610/33
Paper 3 Extended May/June 2011
1 hour 15 minutes
Candidates answer on the Question Paper.
No Additional Materials are required.
READ THESE INSTRUCTIONS FIRST
Write your Centre number, candidate number and name on all the work you hand in.
Write in dark blue or black pen.
You may use a pencil for any diagrams or graphs.
Do not use staples, paper clips, highlighters, glue or correction fluid.
DO NOT WRITE IN ANY BARCODES.
Answer all questions.
At the end of the examination, fasten all your work securely together.
The number of marks is given in brackets [ ] at the end of each question or part question.
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1 The passage describes the feeding relationships between some of the organisms in an African grassland ecosystem.
The dominant grass species in the African grassland ecosystem are star grass and red oat
grass. Star grass is eaten by antelope species, such as topi and Thomson’s gazelle. Smaller animals such as mice and grasshoppers also feed on grass. Antelopes are eaten by predators such as cheetahs, lions and serval cats. Grasshoppers and mice are eaten by serval cats and tawny eagles. Ruppell’s vulture feeds on dead mammals.
Fig. 1.1 shows part of the food web for this ecosystem.
star grass red oat grass
topi Thomson’sgazelle .................................
grasshoppers
lions.................................
.................................
serval cats tawny eagles
Fig. 1.1 (a) Complete the food web in Fig. 1.1 by writing the names of the organisms in the boxes. Write your answers in the boxes in Fig. 1.1. [3] (b) Name the trophic level of the following species:
star grass
topi [2]
(c) (i) State the source of energy for the food web shown in Fig. 1.1.
[1]
(ii) State what happens to energy when it leaves an ecosystem, such as the African
grassland.
[1]
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(d) Nutrients are recycled in ecosystems but energy is not recycled. Explain why there are no more than four trophic levels in the ecosystem shown in
Fig. 1.1.
[3]
(e) Fish, such as salmon reared in fish farms, are fed on high protein food made from
animals. When eating this food, these fish are feeding as secondary consumers. Discuss the disadvantages of farming fish, such as salmon, for human food.
[3]
[Total: 13]
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2 Fig. 2.1 shows a person sitting in a room. A thermometer shows the temperature of the room.
50
40
30
20
10
0
°C
Fig. 2.1 (a) Give three uses of energy in the body of the person in Fig. 2.1.
1.
2.
3. [3]
(b) Name the process carried out by the person in Fig. 2.1 that releases energy.
[2]
(c) The person leaves the room and runs very fast for 200 m. When the person stops
running, his breathing rate and his heart rate remain high. Explain why the person’s breathing rate and heart rate remain high after the run.
[4]
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(d) There are changes in the skin at the beginning of the run and during the run. These changes involve the blood vessels and the sweat glands.
Describe what happens to the blood vessels and sweat glands at the beginning of the
run and during the run. Explain why these changes happen.
[5]
[Total: 14]
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3 Male and female sex hormones control the development of secondary sexual characteristics.
Table 3.1
sex hormones testosterone oestrogen
site of production
……………………......... …………………….........
1
……………………......... ……………………......... secondary sexual characteristics
2
……………………......... …………………….........
(a) Complete Table 3.1. Write your answers in the boxes in Table 3.1. [3] (b) Some women do not release eggs. The hormone FSH is used in fertility treatment for
such women. Name the organs in the female body responsible for the following: (i) production of FSH,
[1]
(ii) release of eggs.
[1]
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(c) Fig. 3.1 shows changes in the concentration of FSH and three other hormones in the blood during one menstrual cycle.
0 2 4 6 8 10 12 14 16 18 20 22 24 26 28
relativeconcentrationof hormonesin the blood
time / days
FSH
oestrogenLH
progesterone
Fig. 3.1 (i) Describe the changes in the concentration of FSH during one menstrual cycle.
[3]
(ii) Explain the role of FSH in the control of the menstrual cycle.
[3]
[Total: 11]
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4 The four o’clock plant, Mirabilis jalapa, can have flowers of three different colours as shown in Fig. 4.1.
yellowflower
crimson flower orange-red flower
Fig. 4.1 (a) A student crossed some crimson-flowered plants with some yellow-flowered plants
(cross 1). She collected the seeds and grew them. All of the plants that grew from these seeds had orange-red flowers.
Complete the genetic diagram to explain the result of cross 1.
parental phenotypes
parental genotypes
gametes
offspring genotype
offspring phenotype
crimson flowers
ACAC
..............
×
×
+
yellow flowers
AYAY
..............
................
........................ [3]
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(b) The student then carried out three further crosses as shown in Table 4.1.
Table 4.1
cross genotypes of offspring
2 offspring of cross 1 × offspring of cross
3 offspring of cross 1 × crimson-flowered plant
4 offspring of cross 1 × yellow-flowered plant
Complete Table 4.1 by writing the genotypes of the offspring of crosses 2, 3 and 4,
using the same symbols as in the genetic diagram in (a). Write the genotypes in Table 4.1. You may use the space below for any working. [3] (c) Flower colour in M. jalapa is not an example of the inheritance of dominant and
recessive alleles. Explain how the results of the crosses show that these alleles for flower colour are not
dominant or recessive.
[3]
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Flowers from M. jalapa were cross-pollinated. (d) Explain the difference between self-pollination and cross-pollination.
[2]
(e) Some species of plants are self-pollinated. Discuss the long-term effects of self-pollination on the evolution of these plants.
[4]
[Total: 15]
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5 Australia has added fluoride to much of its drinking water since 1953. Other countries, such as Chile, do not add fluoride to their drinking water.
(a) Outline the arguments for and against the addition of fluoride to public drinking water.
[3]
Studies of the relationship between sugar consumption, tooth decay and fluoridation of
drinking water have been carried out. Data was collected on tooth decay in 12 year-old children in Australia and Chile.
Fig. 5.1 shows changes in sugar consumption in Australia and Chile between 1970 and 2006.
Fig. 5.2 shows changes in tooth decay in the same countries over a similar time period.
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sugar consumption/ kg per personper year
70
60
50
40
30
20
10
01970 1980 1991 1994
year
1997 2000 2006
ChileAustralia
key:
Fig. 5.1
mean numberof decayed,missing andfilled teethper child
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7
6
5
4
3
2
1
01977 1980 1990 1995 1999
year
2000 2006
ChileAustralia
key:Note that there is no data available for Chile for 2000 and for Australia for 2006.
Fig. 5.2
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(b) Describe the changes in sugar consumption and tooth decay in Australia and Chile between 1970 and 2006.
sugar consumption
tooth decay
[4]
(c) The peaks for sugar consumption and tooth decay in 12 year-old children in Chile
occurred at about the same time. It has been suggested that an increase in sugar consumption in children caused an increase in tooth decay.
Explain how an increase in sugar consumption may cause tooth decay.
[4]
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(d) Fig. 5.1 shows that sugar consumption in these two countries is similar. Fig. 5.2 shows the changes in tooth decay in 12 year-old children.
Suggest explanations for the similarities and differences in tooth decay in 12 year-old
children in Australia and Chile.
[3]
[Total: 14]
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Question 6 begins on the next page.
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6 Fig. 6.1 shows a leaf and a flower of Helleborus orientalis.
Fig. 6.1
(a) H. orientalis is a dicotyledonous plant.
State three features visible in Fig. 6.1 that show it is a dicotyledonous plant.
1.
2.
3. [3]
Fig. 6.2 is a photograph of a section through a leaf of H. orientalis.
0.1 mmA
B
C
D
E
FG Fig. 6.2
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(b) Complete the table, using ticks (�), to show the cells that carry out photosynthesis.
cell cells that carry out
photosynthesis
A
B
C
D
E
F
G
[2] (c) Explain how two features of leaves, visible in sections such as that shown in Fig. 6.2,
are adaptations for efficient photosynthesis.
1.
2.
[4]
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(d) During the period when H. orientalis is photosynthesising at a fast rate, substances are transported through the plant in the phloem from sources to sinks.
(i) Name two substances that are translocated from a source to a sink.
[2]
(ii) For these substances state the source and two possible sinks.
source
sink 1
sink 2 [2]
[Total: 13]
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